diff --git a/light.py b/light.py index 760110f..3495429 100644 --- a/light.py +++ b/light.py @@ -1,6 +1,7 @@ import esphome.codegen as cg import esphome.config_validation as cv -from esphome.components import light, output, gpio +import esphome.components.gpio.output as gpio_output +from esphome.components import light, gpio, ledc from esphome.const import CONF_RED, CONF_GREEN, CONF_BLUE, CONF_WHITE, CONF_OUTPUT_ID CONF_MASTER1 = "master1" @@ -12,13 +13,13 @@ YeelightBS2LightOutput = rgbww_ns.class_("YeelightBS2LightOutput", light.LightOu CONFIG_SCHEMA = light.RGB_LIGHT_SCHEMA.extend( { cv.GenerateID(CONF_OUTPUT_ID): cv.declare_id(YeelightBS2LightOutput), - cv.Required(CONF_RED): cv.use_id(output.FloatOutput), - cv.Required(CONF_GREEN): cv.use_id(output.FloatOutput), - cv.Required(CONF_BLUE): cv.use_id(output.FloatOutput), - cv.Required(CONF_WHITE): cv.use_id(output.FloatOutput), - cv.Required(CONF_WHITE): cv.use_id(output.FloatOutput), - cv.Required(CONF_MASTER1): cv.use_id(gpio.output.GPIOBinaryOutput), - cv.Required(CONF_MASTER2): cv.use_id(gpio.output.GPIOBinaryOutput), + cv.Required(CONF_RED): cv.use_id(ledc), + cv.Required(CONF_GREEN): cv.use_id(ledc), + cv.Required(CONF_BLUE): cv.use_id(ledc), + cv.Required(CONF_WHITE): cv.use_id(ledc), + cv.Required(CONF_WHITE): cv.use_id(ledc), + cv.Required(CONF_MASTER1): cv.use_id(gpio_output.GPIOBinaryOutput), + cv.Required(CONF_MASTER2): cv.use_id(gpio_output.GPIOBinaryOutput), } ) @@ -26,17 +27,17 @@ def to_code(config): var = cg.new_Pvariable(config[CONF_OUTPUT_ID]) yield light.register_light(var, config) - red = yield cg.get_variable(config[CONF_RED]) - cg.add(var.set_red(red)) + led_red = yield cg.get_variable(config[CONF_RED]) + cg.add(var.set_red(led_red)) - green = yield cg.get_variable(config[CONF_GREEN]) - cg.add(var.set_green(green)) + led_green = yield cg.get_variable(config[CONF_GREEN]) + cg.add(var.set_green(led_green)) - blue = yield cg.get_variable(config[CONF_BLUE]) - cg.add(var.set_blue(blue)) + led_blue = yield cg.get_variable(config[CONF_BLUE]) + cg.add(var.set_blue(led_blue)) - white = yield cg.get_variable(config[CONF_WHITE]) - cg.add(var.set_white(white)) + led_white = yield cg.get_variable(config[CONF_WHITE]) + cg.add(var.set_white(led_white)) master1 = yield cg.get_variable(config[CONF_MASTER1]) cg.add(var.set_master1(master1)) diff --git a/yeelight_bs2_light_output.h b/yeelight_bs2_light_output.h index e4df994..c9eb499 100644 --- a/yeelight_bs2_light_output.h +++ b/yeelight_bs2_light_output.h @@ -1,37 +1,48 @@ #pragma once #include "esphome/core/component.h" -#include "esphome/components/output/float_output.h" +#include "esphome/components/ledc/ledc_output.h" #include "esphome/components/light/light_output.h" #include "esphome/components/gpio/output/gpio_binary_output.h" -#define CONSTANT_BRIGHTNESS true -// The lamp circuitry does not support having RGB and white -// channels active at the same time. Therefore, color interlock -// must be enabled. -#define COLOR_INTERLOCK true - -// Same range as supported by the original Yeelight firmware. -#define HOME_ASSISTANT_MIRED_MIN 153 -#define HOME_ASSISTANT_MIRED_MAX 588 - -#define TAG "yeelight_bs2" +// What seems to be a bug in ESPHome transitioning: when turning on +// the device, the brightness is scaled along with the state (which +// runs from 0 to 1), but when turning off the device, the brightness +// is kept the same while the state goes down from 1 to 0. As a result +// when turning off the lamp with a transition time of 1s, the light +// stays on for 1s and then turn itself off abruptly. +// +// Reported the issue + fix at: +// https://github.com/esphome/esphome/pull/1643 +// +// A work-around for this issue can be enabled using this define: +#define TRANSITION_TO_OFF_BUGFIX //#define YEELIGHT_DEBUG_LOG -//#define TRANSITION_TO_OFF_BUGFIX + namespace esphome { namespace rgbww { + static const char *TAG = "yeelight_bs2.light"; + + // Same range as supported by the original Yeelight firmware. + static const int HOME_ASSISTANT_MIRED_MIN = 153; + static const int HOME_ASSISTANT_MIRED_MAX = 588; + + // The PWM frequency as used by the original device + // for driving the LED circuitry. + const float PWM_FREQUENCY = 3000.0f; + class YeelightBS2LightOutput : public Component, public light::LightOutput { public: - void set_red(output::FloatOutput *red) { red_ = red; } - void set_green(output::FloatOutput *green) { green_ = green; } - void set_blue(output::FloatOutput *blue) { blue_ = blue; } - void set_white(output::FloatOutput *white) { white_ = white; } + void set_red(ledc::LEDCOutput *red) { red_ = red; red_->set_frequency(PWM_FREQUENCY); } + void set_green(ledc::LEDCOutput *green) { green_ = green; green_->set_frequency(PWM_FREQUENCY); } + void set_blue(ledc::LEDCOutput *blue) { blue_ = blue; blue_->set_frequency(PWM_FREQUENCY); } + void set_white(ledc::LEDCOutput *white) { white_ = white; white_->set_frequency(PWM_FREQUENCY); } void set_master1(gpio::GPIOBinaryOutput *master1) { master1_ = master1; } void set_master2(gpio::GPIOBinaryOutput *master2) { master2_ = master2; } @@ -42,7 +53,7 @@ namespace esphome traits.set_supports_color_temperature(true); traits.set_supports_brightness(true); traits.set_supports_rgb_white_value(false); - traits.set_supports_color_interlock(COLOR_INTERLOCK); + traits.set_supports_color_interlock(true); traits.set_min_mireds(HOME_ASSISTANT_MIRED_MIN); traits.set_max_mireds(HOME_ASSISTANT_MIRED_MAX); return traits; @@ -52,35 +63,41 @@ namespace esphome { auto values = state->current_values; -//#ifdef YEELIGHT_DEBUG_LOG +#ifdef YEELIGHT_DEBUG_LOG ESP_LOGD(TAG, "B = State %f, RGB %f %f %f, BRI %f, TEMP %f", values.get_state(), values.get_red(), values.get_green(), values.get_blue(), values.get_brightness(), values.get_color_temperature()); -//#endif +#endif // Power down the light when its state is 'off'. if (values.get_state() == 0) { this->turn_off_(); +#ifdef YEELIGHT_DEBUG_LOG + previous_state_ = -1; + previous_brightness_ = 0; +#endif return; } auto brightness = values.get_brightness(); #ifdef TRANSITION_TO_OFF_BUGFIX - // What seems to be a bug in ESPHome transitioning: when turning on - // the device, the brightness is scaled along with the state (which - // runs from 0 to 1), but when turning off the device, the brightness - // is kept the same while the state goes down from 1 to 0. As a result - // when turning off the lamp with a transition time of 1s, the light - // stays on for 1s and then turn itself off abruptly. - // For turning off, I implemented this hack here to make the - // transition work better. - if (previous_state_ > values.get_state()) { - brightness = values.get_state() * brightness; + // Remember the brightness that is used when the light is fully ON. + if (values.get_state() == 1) { + previous_brightness_ = brightness; } - previous_state_ = values.get_state(); + // When transitioning towards zero brightness ... + else if (values.get_state() < previous_state_) { + // ... check if the prevous brightness is the same as the current + // brightness. If yes, then the brightness isn't being scaled ... + if (previous_brightness_ == brightness) { + // ... and we need to do that ourselves. + brightness = values.get_state() * brightness; + } + } + previous_state_ = values.get_state(); #endif // Leave it to the default tooling to figure out the basics. @@ -88,9 +105,7 @@ namespace esphome // - red, green, blue zero -> the light is in color temperature mode // - cwhite, wwhite zero -> the light is in RGB mode float red, green, blue, cwhite, wwhite; - state->current_values_as_rgbww( - &red, &green, &blue, &cwhite, &wwhite, - CONSTANT_BRIGHTNESS, COLOR_INTERLOCK); + state->current_values_as_rgbww(&red, &green, &blue, &cwhite, &wwhite, true, false); if (cwhite > 0 || wwhite > 0) { @@ -104,19 +119,22 @@ namespace esphome // that takes care of the required brightness curve while ramping up // the brightness. Therefore, the actual RGB values are passed here. this->turn_on_in_rgb_mode_( - values.get_red(), values.get_green(), values.get_blue(), brightness); + values.get_red(), values.get_green(), values.get_blue(), + brightness, values.get_state()); } } protected: - output::FloatOutput *red_; - output::FloatOutput *green_; - output::FloatOutput *blue_; - output::FloatOutput *white_; + ledc::LEDCOutput *red_; + ledc::LEDCOutput *green_; + ledc::LEDCOutput *blue_; + ledc::LEDCOutput *white_; esphome::gpio::GPIOBinaryOutput *master1_; esphome::gpio::GPIOBinaryOutput *master2_; - // Used for a bug hack. +#ifdef TRANSITION_TO_OFF_BUGFIX float previous_state_ = 1; + float previous_brightness_ = -1; +#endif void turn_off_() { @@ -131,14 +149,17 @@ namespace esphome master2_->turn_off(); } - void turn_on_in_rgb_mode_(float red, float green, float blue, float brightness) + void turn_on_in_rgb_mode_(float red, float green, float blue, float brightness, float state) { #ifdef YEELIGHT_DEBUG_LOG ESP_LOGD(TAG, "Activate RGB %f, %f, %f, BRIGHTNESS %f", red, green, blue, brightness); #endif // The brightness must be at least 3/100 to light up the LEDs. - if (brightness < 0.03f) + // During transitions (where state is a fraction between 0 and 1, + // indicating the transition progress) we don't apply this to + // get smoother transitioning when turning on the light. + if (state == 1 && brightness < 0.03f) brightness = 0.03f; // Apply brightness.